WO2020032033A1 - Catheter tube unit used in electrode catheter and manufacturing method for same, catheter tube, and electrode catheter - Google Patents

Abstract

A catheter tube unit 2a according to the present invention is a catheter tube unit which is accommodated inside a catheter tube 2 of an electrode catheter 1 and is used in the catheter tube having a distal end which is made bendable and stretchable by operating a wire 5 fixed from the base end side to the distal end side of the catheter tube. The catheter tube unit is provided with: the wire; a long and integrated structure 10 having at least a core tube 6, through which the wire is inserted, a plurality of lead wires 7, 7 … which are disposed on the outer circumference of the core tube and connected to electrodes 4, 4…, and a coating material 8 which covers at least the outside of the plurality of lead wires; and an exterior tube 11 which is disposed on the outer circumferential surface of the structure and is an extruded object having the structure as a core material.

Description

CATHETER TUBE UNIT USED FOR ELECTRODE CATHETER AND ITS MANUFACTURING METHOD, CATHETER TUBE, AND ELECTRODE CATHETER

The present invention relates to a catheter tube unit used for an electrode catheter, a method for manufacturing the same, a catheter tube, and an electrode catheter.

電極 An electrode catheter used for an electrophysiological test for the purpose of identifying the cause of arrhythmia (see Patent Literature 1 and the like) is also called an EP catheter and is used at the site of arrhythmia treatment. At present, most of such EP catheters are manufactured overseas, and an example of the structure will be described with reference to FIG. 10. The catheter tube 200 guides the wire 105 inside a resin-made outer tube 111 formed in advance. , And a plurality of leads 107, 107... Connected to the test electrode on the distal end side of the catheter tube 200 are connected between the inner peripheral surface of the outer tube 111 and the outer peripheral surface of the core tube 106. Was inserted into the internal space 201 formed at the end.

JP 2006-0613350 A

The catheter tube 200 having such a structure has a large diameter, and the diameter is, for example, 6 Fr (2 mm), 5 Fr (1.65 mm), 4 Fr (1.32 mm), or the like. However, in order to reduce the number of venous punctures at the time of examination, shorten the operation time, and reduce the burden of hemostasis after use, it has been desired to reduce the diameter. However, when the diameter is reduced to, for example, about 1 mm, it is difficult to secure a sufficient internal space 201 by inserting a deflected mechanism using the wire 105, and a plurality of lead wires 107 are inserted. Therefore, there is a problem that a small-diameter electrode catheter cannot be manufactured.

The present invention has been made in view of the above circumstances, and a catheter tube unit used for an electrode catheter and a method for manufacturing the same, a catheter tube, and an electrode, which can be reduced in diameter even having a deflected mechanism. It is an object to provide a catheter.

In order to solve this problem, the catheter tube unit of the present invention is housed inside the catheter tube of the electrode catheter, and bends the distal end by operating the wire fixed to the distal end side on the proximal end side. A catheter tube unit used for the extendable catheter tube,
Said wire;
A core tube through which this wire is inserted, a plurality of lead wires arranged on the outer periphery of the core tube and connected to the electrode, and a long material having at least a coating material covering at least the outside of the plurality of lead wires as a whole. An integrated structure,
An outer tube which is disposed on the outer peripheral surface of the structure and is an extruded body using the structure as a core material is provided.

The catheter tube of the present invention includes the catheter tube unit and an electrode unit connected to a distal end of the catheter tube unit,
The electrode unit includes an electrode tube, and a member housed inside the electrode tube and capable of bending and extending the distal end of the catheter tube,
The wire and the lead extending from the catheter tube unit are inserted into the electrode tube, the wire is fixed to a distal end side of the electrode tube, and the lead is connected to the electrode. .

The electrode catheter of the present invention includes the catheter tube, and an operation unit provided on a proximal end side of the catheter tube and capable of operating the wire such that the distal end of the catheter tube bends and extends. And

The method for manufacturing a catheter tube unit of the present invention is characterized in that the catheter is housed inside the catheter tube of the electrode catheter, and the distal end can be bent and extended by operating a wire fixed to the distal end on the proximal end side. A method for manufacturing a catheter tube unit used for a tube, comprising the following steps:
Arranging a plurality of lead wires connected to the electrodes on the outer periphery of the core tube through which the wires are inserted, and covering at least the outside of the plurality of lead wires with a coating material; A step of obtaining a long and integrated structure having at least the plurality of lead wires and the covering material; and a step of extruding an outer tube on the outer peripheral surface of the structure as a core material.

According to the present invention, the step of inserting the lead wire after forming the outer tube is eliminated by integrally extruding the structure housed in the outer tube at the time of forming the outer tube as a core material. The lead wire can be arranged without securing a lumen. Therefore, the diameter can be reduced even with the deflector mechanism, and an electrode catheter having a diameter that cannot be realized by a conventional product can be manufactured.

1 is a side view schematically showing an embodiment of a catheter tube unit, a catheter tube, and an electrode catheter of the present invention. FIG. 2 is a sectional view taken along line A-A ′ of the catheter tube unit in FIG. 1. FIG. 2 is a vertical cross-sectional view of a portion taken along line B-B ′ of the catheter tube of FIG. It is a longitudinal section perpendicular to a longitudinal direction which shows roughly an example of the manufacturing method of the catheter tube unit of the present invention. It is a longitudinal section perpendicular to a longitudinal direction which shows roughly an example of the manufacturing method of the catheter tube unit of the present invention. It is a longitudinal section perpendicular to a longitudinal direction which shows roughly an example of the manufacturing method of the catheter tube unit of the present invention. It is sectional drawing of the extrusion direction which shows roughly the process of extrusion-molding an exterior tube to the outer peripheral surface using a structure as a core material. FIG. 3 is a cross-sectional view similar to FIG. 2 schematically illustrating another embodiment of the catheter tube unit of the present invention. FIG. 6 is a cross-sectional view similar to FIG. 2, schematically illustrating still another embodiment of the catheter tube unit of the present invention. It is a longitudinal section perpendicular to a longitudinal direction which shows roughly the conventional catheter tube used for an electrode catheter.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows the catheter tube unit 2a, the catheter tube 2, and the electrode catheter 1 of the present embodiment. The electrode catheter 1 is used for an electrophysiological test for the purpose of identifying the cause of arrhythmia. The electrodes 4, 4... Of the catheter tube 2 are inserted into a living body, for example, into a heart cavity, and are inserted into a myocardium. Contact and measure action potential.

カ テ ー テ ル The catheter tube unit 2a of the present embodiment constitutes the catheter tube 2 together with the electrode unit 2b connected to the tip. The electrode catheter 1 includes a catheter tube 2 and an operation unit 3 attached to a proximal end thereof. As shown in FIGS. 2 and 3, the catheter tube 2 has a wire 5 housed therein. The wire 5 is fixed to the distal end side of the catheter tube 2, and the distal end of the catheter tube 2 is bent and bent as shown in FIG. 1 by operating the wire 5 with the operation unit 3 on the proximal end side of the catheter tube 2. Extend.

The catheter tube unit 2a includes the wire 5, the structure 10, and the outer tube 11, as shown in FIGS. The structure 10 includes a core tube 6, a plurality of lead wires 7, 7..., A coating material 8, and a braid 9.

The wire 5 is inserted inside the core tube 6 movably in the longitudinal direction. The shape of the longitudinal section of the wire 5 is not particularly limited, but is preferably a substantially circular shape. The diameter of the wire 5 is not particularly limited, but is preferably 0.3 mm or less, and more preferably 0.2 mm or less.

材料 The material of the wire 5 is not particularly limited, and examples thereof include metals such as stainless steel and nickel-titanium alloy. Further, it is not always necessary to use a metal, and a high-strength non-conductive wire may be used. The wire 5 may be a single wire or a stranded wire.

The core tube 6 guides the wire 5 in the longitudinal direction by passing the wire 5 inside. The core tube 6 may have a pipe shape, a coil shape, or the like as long as it forms a tube, but a pipe shape is preferable. The shape of the longitudinal section of the core tube 6 is not particularly limited, but a substantially circular shape is preferable. The outer diameter of the core tube 6 is not particularly limited as long as the wire 5 can be inserted therein and a desired number of lead wires 7, 7,... Can be arranged on the outer peripheral surface. It is preferably from 0.5 to 0.5 mm, more preferably from 0.3 to 0.4 mm. The inner diameter of the core tube 6 is slightly larger than the outer diameter of the wire 5.

材料 The material of the core tube 6 is not particularly limited, and examples thereof include an organic polymer material and a metal material such as stainless steel. Among them, the organic polymer material has a high insulating property and is therefore suitable for the constituent members of the electrode catheter 1. Among them, a low-friction material is preferable from the viewpoint of reducing the sliding resistance with the wire 5 inserted through the core tube 6, for example, a fluorine-based resin such as polytetrafluoroethylene or ethylene-tetrafluoroethylene copolymer, Polyetheretherketone, nylon 66, high-density polyethylene, polyamide 12, and the like can be used. When a resin material is used for the core tube 6, it can be obtained by extrusion molding.

The plurality of lead wires 7 are mainly connected to the electrodes 4 of the catheter tube 2 and are arranged on the outer periphery of the core tube 6. The lead wire 7 extends in the longitudinal direction while being in contact with the core tube 6, and the arrangement of the plurality of lead wires 7, 7,... Is not particularly limited, but as shown in FIG. .. Are preferably arranged so as to be in close contact with each other and each of the plurality of lead wires 7 is in contact with the outer peripheral surface of the core tube 6. With such an arrangement, even if the diameter of the catheter tube unit 2a is reduced, a large number of lead wires 7 for connecting to the plurality of electrodes 4, 4,... Can be accommodated.

In addition, in some cases, if necessary, at least a part of the adjacent lead wires 7, 7 are separated from each other, or the plurality of lead wires 7, 7,... Are spirally twisted on the outer peripheral surface of the core tube 6. , Or a multi-stage arrangement in which a plurality of lead wires 7, 7,... Are further arranged on the outer peripheral surface of a plurality of lead wires 7, 7,. .

The lead wire 7 is preferably a core wire provided with an insulating coating on a core wire, for example, a lead having a core made of gold, silver, copper or the like having a low electric resistance and having an insulating coating made of polyurethane, enamel, fluororesin or the like provided around the core wire. Line 7 can be used. The diameter of the lead wire 7 including the core wire and the insulating coating is not particularly limited, but not only from the viewpoint of reducing the diameter, but also a sharp display of the intracardiac potential, avoidance of draft of the intracardiac potential, and a risk of disconnection. From the viewpoint of avoidance and the like, the thickness is preferably 0.05 to 0.12 mm, and more preferably 0.05 to 0.08 mm. The number of the plurality of leads 7, 7,... Is preferably 10 or more, more preferably 20 or more, in order to obtain a plurality of pieces of information on the intracardiac potential.

(4) The covering material 8 covers at least the outside of the plurality of leads 7, 7,... To protect the plurality of leads 7, 7,. In the present embodiment, the coating material 8 is disposed on the entire outer peripheral surface of the plurality of lead wires 7, 7,. The coating material 8 prevents insulation breakdown of the lead wire 7 due to heat in, for example, extrusion molding of the outer tube 11, and prevents breakage of the lead wire 7 at the time of manufacturing the catheter tube unit 2a. The material of the coating material 8 is not particularly limited, and various insulating materials can be used, and examples thereof include an organic polymer material.

For example, by winding the covering material 8 around the entire outer peripheral surface of the plurality of lead wires 7, 7,..., The covering material 8 can be arranged on the entire outer peripheral surface of the plurality of lead wires 7, 7,.

In addition, a plurality of lead wires are obtained by shrinking the heat-shrinkable tube by applying heat from the outside by, for example, covering the entire structure with a heat-shrinkable tube having a property of reducing its diameter by heating and passing the heat-shrinkable tube through a heating furnace. 7, 7 ... The covering material 8 can be arranged on the entire outer peripheral surface.

Alternatively, by inserting a core tube 6 having a plurality of lead wires 7, 7... Disposed on the outer peripheral surface thereof through a resin tube having an inner diameter approximately the same as that of the core tube 6, a plurality of lead wires 7, 7,. The covering material 8 can be arranged.

In the case of using a lead wire group in which the entire circumference of the lead wires 7, 7,... Is covered with the covering material 8 as in the embodiment of FIG. The coating material 8 can be coated on the entire circumference of the wires 7, 7,.

The braid 9 is arranged on the outer periphery of the covering material 8. The braid 9 is embedded in the outer tube 11 at the time of extrusion molding using the structure 10 as a core material, functions as a reinforcing material for the catheter tube 2, and the rotational force applied to the proximal end of the electrode catheter 1 is transmitted to the distal end. It is possible to impart a torque transmitting property, a kink resistance that does not cause bending in a bent blood vessel, and the like. A method for arranging the braid 9 is not particularly limited, and examples thereof include a method such as winding. The braid 9 is formed by crossing, braiding, or the like of a metal wire or the like. For example, a known technique in the field of a catheter tube is referred to, and a braid based on such a known technique can be used. The metal strand of the braid 9 is not particularly limited, and examples thereof include stainless steel, tungsten, tantalum, a nickel-titanium alloy, a cobalt-chromium alloy, and an amorphous alloy. The braid 9 may be made of a material other than metal, for example, a resin. Examples of the braid 9 made of a resin include a tube made of a resin material having a melting point higher than that of the outer tube 11, and examples of such a resin material include polyimide, polyamide, polyetheretherketone, and liquid crystal polymer. Is mentioned.

The core tube 6, the plurality of lead wires 7, 7,..., The covering material 8, and the braid 9 are arranged such that the lead wires 7, 7,. By being arranged, a long and integrated structure 10 is formed.

The outer tube 11 is an extruded body that is disposed on the outer peripheral surface of the structure 10 and has the structure 10 as a core material. According to the catheter tube unit 2a of the present embodiment, when the exterior tube 11 is molded, the structure 10 housed therein is integrally extruded as a core material, thereby inserting the lead wire 7 after the exterior tube 11 is molded. The step is eliminated, and the lead wire 7 can be disposed without securing a lumen between the outer tube 11 and the core tube 6. Therefore, the diameter can be reduced even with the deflector mechanism, and the electrode catheter 1 having a diameter that cannot be realized by the conventional product can be manufactured. As a result, the number of venous punctures at the time of examination can be reduced, and it is possible to shorten the treatment time and reduce the burden such as hemostasis after use.

The material of the outer tube 11 is not particularly limited, but a thermoplastic molding material that can be extruded can be used. For example, polyolefin such as polypropylene, ethylene-vinyl acetate copolymer, polyamide, polyethylene terephthalate (PET) , Polyester such as polybutylene terephthalate (PBT), polyurethane, polyvinyl chloride, polystyrene resin, fluorine resin such as polytetrafluoroethylene, ethylene-tetrafluoroethylene copolymer, polyamide such as polyether block amide copolymer Various flexible resins such as elastomers, polyurethane elastomers, polystyrene elastomers, polyester elastomers, fluorine-based elastomers, and rubber materials such as silicone rubber and latex rubber; Such a combination of two or more Chino the like.

外 The outer diameter of the catheter tube unit 2a of the present embodiment having the above configuration is not particularly limited, but is preferably 1.32 mm or less, more preferably 1 mm or less, from the viewpoint of reducing the diameter.

In the catheter tube unit 2a shown in FIGS. 1 to 3, the core tube 6, the plurality of lead wires 7, 7,..., The coating material 8, and the braid 9 are used as the constituent elements of the structure 10. The structure 10 may be configured without using the structure 9.

That is, the catheter tube unit 2a includes i) a wire 5, ii) a core tube 6 through which the wire 5 is inserted, and a plurality of lead wires 7 arranged on the outer periphery of the core tube 6 and connected to the electrodes 4, 4,. , 7 ... and a long and integral structure 10 having at least a covering material 8 covering at least the outside of the plurality of lead wires 7, 7 ..., and iii) disposed on the outer peripheral surface of the structure 10. And an exterior tube 11 which is an extruded body using the structure 10 as a core material. The structure 10 may have a braid 9 disposed on the outer periphery of the covering material 8.

The catheter tube unit 2a, as also shown in FIGS. 4 to 7, can be manufactured by a method including the following steps:
(A) Arranging a plurality of lead wires 7, 7, ... connected to the electrodes 4, 4, ... on the outer periphery of the core tube 6 through which the wire 5 is inserted (Fig. 4), and (B) the plurality of lead wires , Including at least the outside of the entirety of the casing 7 with a covering material 8 (FIG. 5), and having a core tube 6, a plurality of lead wires 7, 7,. A step of obtaining the body 10; and a step of extruding the outer tube 11 on the outer peripheral surface of the structure 10 as a core material (FIG. 7).

The structure 10 may further include a braid 9 on the outer periphery of the covering material 8 as shown in FIG.

Further, in the present embodiment shown in FIGS. 4 to 7, the procedure of performing the above (B) after the above (A) is performed. In the present invention, for example, as in the embodiment of FIG. The procedure is not limited to this procedure, and the procedure is not limited to a case where a lead wire group in which the entire circumference of... Is covered with the coating material 8 is prepared in advance and is arranged on the outer peripheral surface of the core tube 6.

In the method of manufacturing the catheter tube unit 2a, when the outer tube 11 is extrusion-molded, for example, as shown in FIG. 7, a ring-shaped base 16 having an extrusion path is used, and the inside of the hollow portion of the base 4 is formed. Through the structure 10, a thermoplastic molding material 11 a is formed into a tube from the extrusion path of the die 4 and extruded to the outer peripheral surface of the structure 10, and the structure 10 is moved in one direction to move the structure 10. The entire outer peripheral surface is covered with the molding material 11a. Thereby, the exterior tube 11 using the molding material 11 a can be formed on the outer peripheral surface of the structure 10.

As shown in FIGS. 1 and 3, the catheter tube 2 using the catheter tube unit 2a of the present embodiment described above includes a catheter tube unit 2a and an electrode unit 2b connected to the distal end of the catheter tube unit 2a. It has.

The electrode unit 2b can bend and extend the tip of the catheter tube 2 housed inside the electrode tube 14 in which the electrodes 4, 4... For inspection are arranged, as shown in FIG. A leaf spring 15 is provided.

先端 As shown in FIG. 3, the distal end of the catheter tube unit 2a and the proximal end of the electrode tube 2b are connected by a connecting portion 13. The mode of connecting the catheter tube unit 2a and the electrode tube 2b is not particularly limited as long as they are not separated.

ワ イ ヤ A wire 5 and a plurality of lead wires 7 extend from the distal end of the catheter tube unit 2a. That is, the outer tube 11 and the coating material 8 are stripped off at the distal end side of the catheter tube unit 2a manufactured by the above-described method, and the core tube 6 is also cut while leaving a part extending from the distal end of the catheter tube unit 2a. The wire 5 and the plurality of lead wires 7, 7,... The wire 5 and the plurality of lead wires 7, 7 extending from the catheter tube unit 2a are inserted into the electrode tube 2b.

樹脂 A resin connection tube 12 is fitted and attached to the core tube 6 extending from the distal end of the catheter tube unit 2a. The electrode tube 2b may be formed of a tube having the same characteristics as the catheter tube unit 2a in its flexibility, but preferably, the electrode tube 2b on the distal end side of the catheter tube 2 is relatively flexible. The catheter tube unit 2a on the proximal end side is a relatively rigid portion. The thickness of the outer tube 11 of the electrode tube 2b and the outer tube 11 of the catheter tube unit 2a may be the same or different, but in the example of FIG. While having a diameter, the catheter tube 2 is made thinner than the outer tube 11 of the catheter tube unit 2a in order to ensure flexibility so that the distal end of the catheter tube 2 can be bent and extended. Therefore, there is a gap between the inner peripheral surface of the electrode tube 2 b and the core tube 6 even if the plurality of lead wires 7 are sandwiched. Therefore, as shown in FIG. 3, the thickness of the electrode tube 2 b at the base end is made substantially the same as that of the outer tube 11. By pressing the lead wires 7, 7,..., The distal end of the catheter tube unit 2a is connected to the proximal end of the electrode tube 2b.

材料 The material of the electrode tube 2b is not particularly limited, and examples thereof include the molding materials exemplified above as the material of the outer tube 11.

ワ イ ヤ The wire 5 inserted into the electrode tube 2b is fixed to the distal end side of the electrode tube 2b. The wire 5 is arranged on one surface of the leaf spring 15 inside the electrode tube 2b. The manner in which the wire 5 is fixed to the distal end side of the electrode tube 2b is not particularly limited. For example, soldering, laser welding, ultrasonic welding is performed on the distal end side of the leaf spring 15 or a member provided at the distal end of the electrode tube 2b. , Arc welding, brazing or the like.

By pulling the wire 5 at the proximal end of the catheter tube 2, the leaf spring 15 is bent, and the distal end of the catheter tube 2 can be bent. By the operation of loosening the wire 5 from the pulled state, the distal end of the bent catheter tube 2 can be extended to the original state by the elastic recovery force of the leaf spring 15. The mechanism itself for bending and extending the distal end of the catheter by operating it on the proximal end side is already known and has been put to practical use, and is described in, for example, Patent Document 1 and Japanese Patent Laid-Open Publication No. 05-507212. I have.

材料 The material of the leaf spring 15 is not particularly limited, and examples thereof include stainless steel, a nickel-titanium alloy, a cobalt-nickel alloy, and a polymer material such as a fluororesin or a polyamide resin.

The member accommodated inside the electrode tube 14 and capable of bending and extending the distal end of the catheter tube 2 is not particularly limited as long as the operation can be performed using the wire 5. It may be something. For example, a mechanism in which ring members are connected by a wire or the like is known.

In FIG. 3, a plurality of lead wires 7, 7,... Extending from the distal end of the catheter tube unit 2a are connected to the electrodes 4, 4,. Some of the plurality of lead wires 7, 7,... May be pulled out from the distal end of the catheter tube unit 2a according to the number of the electrodes 4, 4,.

For the arrangement form, arrangement position, number of arrangement, and the like of the electrodes 4, 4,..., For example, reference is made to a known technique in the field of an electrode catheter tube, and a configuration based on such a known technique can be employed. FIG. 1 schematically shows examples of the electrodes 4, 4,..., But the arrangement form, arrangement position, number of arrangement, and the like can be appropriately determined according to the purpose and the like. As an example, annular electrodes 4, 4... Having the same diameter as the outer diameter of the catheter tube 2 are mounted at equal or different intervals in the longitudinal direction, and a hole for passing the lead wire 7 is formed in the electrode tube 14. The core wire of the lead wire 7 is once brought out to the surface through the connection, and then connected to the electrode 4. The electrodes 4, 4,... May be arranged at equal intervals, two electrodes 4, 4 may be paired, two electrodes may be arranged at equal intervals, or the electrode 4 may be arranged at the tip of the electrode tube 14. Good. The maximum number of electrodes 4 that can be accommodated is limited by the outer diameter of the catheter tube 2, but is preferably 1 to 40, and more preferably 2 to 24. Further, a part of the electrode for inspection in the electrode catheter 1 may be present in the catheter tube unit 2a. In this case, one of the plurality of lead wires 7, 7,. The part is connected to the electrode.

材料 The material of the electrode 4 is not particularly limited, and examples thereof include aluminum, copper, stainless steel, gold, platinum, iridium, rhenium, and alloys.

The length of the catheter tube 2 from the operation section 3 is not particularly limited, but is preferably 60 to 180 cm for measuring, for example, the action potential of the heart.

The catheter tube 2 using the catheter tube unit 2a of the present embodiment described above is used as an electrode catheter 1, as shown in FIG. The electrode catheter 1 includes a catheter tube 2 and an operation unit 3 provided on a proximal end side of the catheter tube 2 and capable of operating a wire 5 so that the distal end of the catheter tube 2 bends and extends.

The operation unit 3 is configured as a casing that can be gripped by an operator, and includes a mechanism for operating the wire 5. The catheter tube 2 is inserted into the inside of the casing from the distal end 3a of the operation portion, and inside the casing, a wire 5 and a plurality of lead wires 7, extend from the proximal end of the catheter tube 2. The proximal end of the wire 5 is fixed inside the casing of the operation unit 3.

機構 The mechanism for operating the wire 5 in the operation unit 3 is not particularly limited. For example, a known technique in the field of the electrode catheter is referred to, and a configuration based on such a known technique can be adopted. Such a known technique includes, for example, a mechanism for operating an axially movable member or a rotatable member connected to the wire 5 by axial movement or rotation, and a mechanism for operating the axial movement of the wire 5. Includes a mechanism that converts to rotational movement by a screwing mechanism and operates a rotating member. In FIG. 1, a movable member 3c connected to the wire 5 and movable in the axial direction is provided. When the movable member 3c is pinched and pulled to the near side, the wire 5 is pulled, the leaf spring 15 is bent at the tip of the catheter tube 2, and the tip of the catheter tube 2 can be bent. When the movable member 3c is pushed out in the axial direction, the wire 5 is loosened from the pulled state, and the distal end of the bent catheter tube 2 can be extended to the original state by the elastic recovery force of the leaf spring 15.

コ ネ ク タ A connector from which a plurality of lead wires 7 extending from the proximal end of the catheter tube 2 are provided at a rear end 3b of the operation unit 3 is provided.

FIG. 8 is a cross-sectional view similar to FIG. 2, schematically showing another embodiment of the catheter tube unit of the present invention. In the present embodiment, a plurality of lead wires 7, 7... Arranged on the outer periphery of the core tube 6 and connected to the electrodes 4, 4,. The covering material 8 covers the entire inner lead wires 7, 7... Arranged over the entire circumference in contact with the outer peripheral surface of the core tube 6 and the outer lead wires 7, 7,. By covering in contact with the outer leads 7, 7,..., At least the outside of the plurality of leads 7, 7,.

FIG. 9 is a cross-sectional view similar to FIG. 2, schematically showing still another embodiment of the catheter tube unit of the present invention. In the present embodiment, the plurality of lead wires 7, 7 connected to the electrodes 4, 4,... Are divided into a plurality of bundles, and each of the lead wire groups is covered with an individual covering material 8. . Thereby, at least the outside of the entirety of the plurality of lead wires 7, 7,... Is covered with the covering material 8, 8,.

In the manufacturing method in this case, the entire circumference of each lead wire group is covered with the covering material 8, and then the lead wire group covered with the covering material 8 is arranged on the outer peripheral surface of the core tube 6. The body 10 can be obtained.

9 shows an example in which there are a plurality of (four) lead groups, but as another example of the present invention, the entire circumference of all the lead wires 7, 7,. The structure 10 can also be obtained by arranging one lead wire group covered with the covering material 8 and thereafter covering the outer periphery of the core tube 6. That is, a mode in which only one lead wire group as shown in FIG. 9 is arranged instead of a plurality may be employed.

Also, in the example of FIG. 9, in each of the lead wire groups, the case where the lead wires 7 are arranged in one step in the thickness direction is shown, but in each of the lead wire groups, as shown in FIG. .. May be arranged in two steps in the thickness direction.

Although the embodiment of the present invention has been described above, the present invention is not limited to this embodiment, and various changes can be made without departing from the gist of the present invention. For example, in the present embodiment, the electrode catheter 1 (EP catheter) used for the electrophysiological examination for the purpose of identifying the cause of the arrhythmia has been described as an example. It is used for ablation catheters used in therapies that are used in therapies that insert into the myocardial tissue that has become abnormal, apply high-frequency electricity from the electrodes to ablate or ablate this myocardial tissue or its vicinity, cause coagulation and necrosis, and block arrhythmic circuits. It can also be used for inspection and measurement of electrical signals of any human body, such as an electroencephalogram test and a myocardial potential test. In the present invention, the electrode catheter is intended to be applied to any site in the body, and the purpose of use is not limited at all.

REFERENCE SIGNS LIST 1 electrode catheter 2 catheter tube 2 a catheter tube unit 2 b electrode unit 3 operation part 3 a operation part tip 3 b operation part rear end 3 c movable member 4 electrode 5 wire 6 core tube 7 lead wire 8 coating material 9 braid 10 structure 11 outer tube 11 a Molding material 12 Connecting tube 13 Connecting portion 14 Electrode tube 15 Leaf spring 16 Base 105 Wire 106 Core tube 107 Lead wire 111 Outer tube 200 Catheter tube 201 Internal space

Claims (6)

1. A catheter tube unit used for the catheter tube capable of bending and extending the distal end by operating the wire fixed to the distal end side of the electrode tube at the proximal end side, which is housed inside the catheter tube of the electrode catheter. ,
   Said wire;
   A core tube through which this wire is inserted, a plurality of lead wires arranged on the outer periphery of the core tube and connected to the electrodes, and a long material having at least a coating material covering at least the outside of the plurality of lead wires as a whole. An integrated structure,
   A catheter tube unit comprising: an outer tube which is arranged on an outer peripheral surface of the structure and is an extruded body using the structure as a core material.
2. カ テ ー テ ル The catheter tube unit according to claim 1, wherein the structure has a braid arranged on the outer periphery of the covering material.
3. The catheter tube unit according to claim 1 or 2, comprising an electrode unit connected to a distal end of the catheter tube unit,
   The electrode unit includes an electrode tube, and a member housed inside the electrode tube and capable of bending and extending the distal end of the catheter tube,
   The catheter tube, wherein the wire and the lead extending from the catheter tube unit are inserted into the electrode tube, the wire is fixed to a distal end side of the electrode tube, and the lead is connected to the electrode.
4. An electrode catheter comprising: the catheter tube according to claim 3; and an operation unit provided on a proximal end side of the catheter tube and capable of operating the wire so that the distal end of the catheter tube bends and extends.
5. A method of manufacturing a catheter tube unit used for the catheter tube capable of bending and extending the distal end by manipulating the wire fixed to the distal end side of the catheter tube at the proximal end side, which is accommodated in the catheter tube of the electrode catheter. A method for manufacturing a catheter tube unit, comprising the following steps:
   Arranging a plurality of lead wires connected to the electrodes on an outer periphery of a core tube through which the wires are inserted, and covering at least an outside of the plurality of lead wires with a coating material; A step of obtaining a long and integrated structure having at least the plurality of lead wires and the covering material; and a step of extruding an outer tube on an outer peripheral surface of the structure as a core material.
6. The catheter tube unit according to claim 5, wherein a braid is arranged on an outer periphery of the covering material to obtain a long and integrated structure having at least the core tube, the plurality of lead wires, the covering material, and the braid. Manufacturing method.

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